Subcellular-resolution molecular imaging within living tissue by fiber microendoscopy. Muldoon, T.J., Pierce, M.C., Nida, D.L., Williams, M.D., Gillenwater, A. and Richards-Kortum, R.; Optics Express 15 (25)16413-16423, Dec. 10, 2007
Oligonucleotide-coated metallic nanoparticles as a flexible platform for molecular imaging agents. Nitin N, Javier DJ, Richards-Kortum R; Bioconjug Chem., Oct. 2007
Dual-mode reflectance and fluorescence near-video-rate confocal microscope for architectural, morphological and molecular imaging of tissue. Carlson AL, Coghlan LG, Gillenwater AM, Richards-Kortum RR; J Microsc., 228(Pt 1): 11-24, Oct. 2007
Confocal microscopy and molecular-specific optical contrast agents for the detection of oral neoplasia. Carlson AL, Gillenwater AM, Williams MD, El-Nagger AK, Richards-Kortum; Technol Cancer Res Treat, 6(5):361-74, Oct. 2007
Fluorescence and reflectance device variability throughout the progression of a phase II clinical trial to detect and screen for cervical neoplasia using a fiber optic probe. Freeberg JA, Serachitopol DM, McKinnon N, Price R, Atkinson EN, Cox DD, MacAulay C, Richards-Kortum R, Follen M, Pikkula B; J Biomed Opt., 12(3):034015, May-Jun 2007
Instrumentation as a source of variability in the application of fluorescence spectroscopic devices for detecting cervical neoplasia. Pikkula BM, Shuhatovich O, Price RL, Serachitopol DM, Follen M, McKinnon N, MacAulay C, Richards-Kortum R, Lee JS, Atkinson EN, Cox DD; J Biomed Opt., 12(3):034014, May-Jun 2007
Plasmon resonance coupling of metal nanoparticles for molecular imaging of carcinogenesis in vivo. Aaron J, Nitin N, Travis K, Kumar S, Collier T, Park SY, Jose-Yacaman M, Coghlan L, Follen M, Richards-Kortum R, Sokolov K; J Biomed Opt., 12(3):034007, May-Jun 2007
Real-time reflectance confocal microscopy: comparison of two-dimensional images and three-dimensional image stacks for detection of cervical precancer. Collier T, Guillaud M, Follen M, Malpica A, Richards-Kortum R; J Biomed Oct., 12(2):024021, Mar-Apr 2007
A translational bioengineering course provides substantial gains in civic scientific literacy. Richards-Kortum R, Buckley D, Schwarz RA, Atkinson EN, Follen M; Ann Biomed Eng, 35(8):1324-32, Apr 2007
Plasmonic nanosensors for imaging intracellular biomarkers in live cells. Kumar S, Harrison N, Richards-Kortum R, Sokolov K; Nano Lett., 7(5)1338-43, Apr 2007
Light scattering from collagen fiber networks: micro-optical properties of normal and neoplastic stroma. Arifler D, Pavlova I, Gillenwater A, Richards-Kortum R; Biophys J., 92(9):3260-74, Feb 2007
Molecular optical imaging of therapeutic targets of cancer. Sokolov K, Nida D, Descour M, Lacy A, Levy M, Hall B, Dharmawardhane S, Ellington A, Korgel B, Richards-Kortum R; Adv Cancer Res., 96:299-344, 2007
Fiber-optic confocal microscope using a MEMS scanner and miniature objective lens. Shin, H. J., Pierce, M. C., Lee, D., Ra, H., Solgaard, O., Richards-Kortum, R. Optics Express 15 (15) 9113-9122
High numerical aperture microendoscope objective for a fiber confocal reflectance microscope. Kester, R. T., Tkaczyk, T. S., Descour, M. R., Christenson, T., Richards-Kortum, R. Optics Express 15(5) 2409-2420
Workshop on imaging science development for cancer prevention and preemption. Kelloff, G. J., et al. Cancer Biomark 3 (1) 1-33, 2007
In vivo confocal microscopy and optical contrast agents. Pierce, M., Nitin, N., Mayes, W., Javier, D., Follen, M., Gillenwater, A., Richards-Kortum, R., Acta Cytologica 51 (2) 265